Changes for page API Gateway Architecture
Last modified by Erik Bakker on 2024/09/02 16:04
From version 1.2
edited by Erik Bakker
on 2022/06/13 08:05
on 2022/06/13 08:05
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Update document after refactoring.
To version 9.1
edited by Erik Bakker
on 2022/06/13 08:23
on 2022/06/13 08:23
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... ... @@ -1,1 +1,1 @@ 1 -a dvanced-solution-architecture-consequence-size-cloud1 +API Gateway Architecture - Content
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... ... @@ -1,5 +1,5 @@ 1 1 {{container}}{{container layoutStyle="columns"}}((( 2 -This microlearning will focus on some considerationsforputting the eMagizruntime at the rightlocationinthe architecture.2 +This micro-learning will focus on describing the general architecture of the API Gateway. After this microlearning, the background of the API GW architecture should be clear 3 3 4 4 Should you have any questions, please contact academy@emagiz.com. 5 5 ... ... @@ -8,45 +8,80 @@ 8 8 9 9 == 1. Prerequisites == 10 10 * Intermediate knowledge of the eMagiz platform 11 -* Good working experience in the Design and Deploy Architecture phase. 11 +* Good working experience in the Design phase Architecture and Deploy Architecture 12 +* Created several API gateway integrations 12 12 13 13 == 2. Key concepts == 14 -In the various microlearnings until the intermediate level, we have explained the eMagiz runtime (https://emagiz.github.io/docs/microlearning/crashcourse*platform*deploy*install*local*connector). In short, it is the process that can make the flow components operational and execute the designated tasks of that flow. Please refer to these microlearnings for further information 15 15 16 +* Single lane -> Single runtime per types 17 +* Double lane -> Two or more runtime per type to handle failover setups 16 16 17 17 18 -== 3. Specific eMagiz runtime considerations == 19 19 20 -=== 3.1 Messaging pattern runtimes === 21 21 22 - ForMessagingspecific patterns the runtime should be placed in sucha way that thereis connectivity between that runtime and the sending/receiving system. The system might be located in a Cloud serviceor Cloud VPC that eMagizclientsare hosting. Or are locatedon*premises of the client. Herearethe optionsand advice for putting the runtime.22 +== 3. Architecture considerations == 23 23 24 -1. Sender or Receiver system is located in a public or private Cloud 25 - * Put the Runtime on a Cloud Connector machine and ensure to use the connectivity options provided in eMagiz 26 - 27 -2. Sender or Receiver system is located in a DMZ section of the client infrastructure 28 - * Put the runtime inside the same DMZ zone to keep the runtime as close to the system as possible 29 - * Ensure the management of the runtime is something workable for the client. Consider the updates that may occur as well as the fact that the runtime can no longer be managed by the eMagiz Portal 30 - 31 -=== 3.2 API Gateway pattern runtimes === 24 +=== 3.1 Architecture components API Gateway === 32 32 33 - For theseruntime thefirstchoice isut all the GatewayEntry Flowandthe Exitgates ontheCloudConnector machine. This way,thenumber ofruntimesarekept toaminimum andthereisfullcontrol overtheseruntime. In theexceptionalcase wherethe exitgateneedsto connect to a system thatisnotaccessible via the clientfirewalls, youcan optto put theseexitgatesonlyonaruntime thatcan be deployed on*premises. Please referto the [microlearning around running partofthesolutionlocally](advanced*api*management*running*part*of*your*api*gateway*solution*on*premise)26 +The following picture displays a general architecture of the API Gateway. This picture has been taken from the eMagiz Design Architecture section as that illustrates the below key points. 34 34 35 -=== 3.3 Event Streaming pattern runtimes === 36 -In the case where Event processors are used in the Event Streaming solution designed, eMagiz provides a event streaming container (runtime). This runtime can only run in a Cloud-based machine, and only in the core machines of eMagiz. The key reason is that these Event Processors need to connect to the topics that are only available in the eMagiz Cloud and not accessible from outside the eMagiz VPC. Any runtime that is consuming or producing data with these topics needs to have the capability to access such topics. 28 +[[image:Main.Images.Microlearning.WebHome@advanced-solution-architecture-apigw-architecture-1.png]] 37 37 30 +Key notes 31 +1. Gateway runtime 32 +The Gateway has a separate runtime where the associated gateway flows are deployed in. The exit gates and all entry flow are the typical flow types present in this runtime, next to the usual infrastructure flow 33 +2. Location runtime 34 +The Gateway runtime is located in a Cloud machine, and is specifically put on the Connector machine. The Connector machine has the ability to allow incoming data (secured) traffic from outside the Virtual Private Cloud that each client has. The Core machine does not have this option due to security reasons. The eMagiz Cloud handles the proper and secure routing to the API gateway. 35 +3. Gateway only runtime 36 +These are system that act as application user of 1 or more operations made available in the API Gateway. In case the system is only connected in the Design phase as such an application user, than that system only acts as input for User Management. The system doesn't need to be deployed as a runtime on the Connector machine, and should therefore be placed on an excluded machine. In the picture above, Exact online is such a system. 38 38 38 +=== 3.2 Single lane Cloud setup === 39 39 40 +Single lane setup in eMagiz means that all runtimes are provided once in the architecture diagram * there is no failover or clustered approach for the runtimes. For the API Gateway, this means that you have the following machines available. In this example, you have the messaging patterns components as well with the objective to see such cases as well. 40 40 42 +* Core 01 --> holds the JMS Server and the messaging process container 43 +* Connnector 01 --> holds the API Gateway container and the messaging runtimes 44 + 45 +[[image:Main.Images.Microlearning.WebHome@advanced-solution-architecture-apigw-architecture-2.png]] 46 + 47 +=== 3.3 Double lane Cloud setup === 48 + 49 +Double lane setup in eMagiz means that all runtimes are provided at least twice in the architecture diagram * there is a failover for the JMS runtimes and gateway containers. For the API Gateway, this means that you have the following machines available. In this case you need to make sure that the flows are duplicated properly across the containers in Deploy * Containers. By default eMagiz will spread all flows over both gateway containers. 50 + 51 +* Core 01 --> holds the JMS Server and the 1st messaging process container 52 +* Core 02 --> holds the backup JMS Server and the 2nd messaging process container 53 +* Connnector 01 --> holds the 1st API Gateway container 54 +* Connnector 02 --> holds the 2nd API Gateway container 55 + 56 +The choice to create a double lane API gateway is to be done where there is a requirement for very high performance around response times and throughput. Please contact eMagiz to discuss such options. 57 + 58 +[[image:Main.Images.Microlearning.WebHome@advanced-solution-architecture-apigw-architecture-3.png]] 59 + 60 +=== 3.4 Hybrid Cloud setup === 61 + 62 +In the [microlearning](advanced-api-management-running-part-of-your-api-gateway-solution-on-premise.md) you can find the reasons and configuration for running the exit gates in on-premises runtimes. A view of such a architecture is displayed here: 63 + 64 +[[image:Main.Images.Microlearning.WebHome@advanced-solution-architecture-apigw-architecture-4.png]] 65 + 66 +=== 3.5 Memory === 67 + 68 +For now the memory requirements for API Gateway are the same as for Messaging flows. Please refer to the [microlearning](expert-solution-architecture-determining-needed-memory.md). 69 + 70 + 71 + 72 + 41 41 == 4. Assignment == 42 42 43 -There is no specific assignment asthisis more theoretical microlearning.75 +There is no specific assignment for now. The correct use of the Design architecture is explained in this [microlearning](crashcourse-platform-design-understanding-design-architecture-basic.md). 44 44 45 45 == 5. Key takeaways == 46 -Take into account the key considerations for each case to ensure the runtime is placed on the right location. 47 47 79 +1. API Gateways can be part of a mixed landscape of Messaging, Event Streaming and API Gateways 80 +2. A single lane setup is usually sufficient for most cases 81 +3. Hybrid setups are possbible but please be sure the ask the right questions before implementing such 48 48 49 49 84 + 50 50 == 6. Suggested Additional Readings == 51 51 52 52 There are no suggested additional readings on this topic